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王昆
文章来源: 发布日期: 2019-09-16 浏览次数: 18483

姓名

王昆

职称

教授

职务

 

专业

动力机械及工程

所在系、所

天津大学内燃机国家重点实验室

通讯地址 

天津大学北洋园校区热动力大楼(34楼)

电子信箱  

wangkun-zju@hotmail.com

传真 

 

 主要学历:

2003.09-2007.07 大连理工大学化学工程 本科
2007.09-2010.05 浙江大学化学工程 硕士
2010.08-2015.08 美国Colorado School of Mines化学工程 博士

 主要学术经历:

2015.08-2015.11 美国Colorado School of Mines化学工程系 博士后
2015.11-2019.06 美国Stanford University机械工程系 博士后
2019.08- 天津大学内燃机燃烧学国家重点实验室 教授

 主要研究方向:

燃料与燃烧,内燃机动力推进系统,能源转换,高压反应动力学,实验设计、模拟仿真与理论计算

 主要讲授课程:


《能源化学导论》(必修)
《燃气轮机机械原理》(选修)

 主要学术兼职:

Elsevier 学术书刊出版审稿人
Fuel, Biofuels, Energy & Fuels, Combustion & Flame, Combustion Science & Technology, Journal of International Hydrogen Energy, Journal of Analytical and Applied Pyrolysis, Journal of Physical Chemistry, Chemical Engineering and Processing等学术期刊审稿人
I&EC Division ACS 2015 Denver National Meeting 分会主席

 主要科研项目及角色:

1.      2020.1-2023.12, 应用于生物质航空燃料的碳烟化学反应动力学模型研究(21961122007),国家自然科学基金国际合作重点项目,天大负责人
2.      2019-2021,
大分子碳氢燃料燃烧反应动力学简化建模方法,内燃机燃烧学国家重点实验室创新研究课题,负责人
3.      2014-2016, Shock-tube and Flow Reactor Studies of the Kinetics of Jet Fuels, 航空管理局FAA
基础研究项目,参与
4.      2016-2020, Development of HyChem--A Jet and Rocket Fuel Combustion Model, 美国空军科学研究办公室AFOSR
基础研究项目,参与
5.      2016-2017, Modeling and Pyrolysis/Oxidation of Jet Fuels Using Hybrid Chemistry Approach, 美国空军科学研究办公室AFOSR
基础研究项目,参与
6.      Pyrolysis Reactions of Butene Isomers at Low Temperatures,
科罗拉多矿业大学与阿布扎比王国石油研究院联合应用基础研究项目,参与
7.      Heterogenously Catalyzed Endothermic Fuel Cracking, 美国空军科学研究办公室AFOSR基础研究项目,参与

 代表性论著:
1.      Kun Wang, Rui Xu, Craig T. Bowman, Hai Wang, Impact of vitiation on flow reactor studies of jet fuel combustion chemistry, Combust. Flame, 2020, https://doi.org/10.1016/j.combustflame.2020.10.044.
2.      Xingyu Liang, Yajun Wang, Kun Wang, Yuesen Wang, Hongsheng Zhang, Bowen Zhao, Xu Lv, Experimental study of impact of lubricant-derived ash on oxidation reactivity of soot generated in diesel engines, Proc. Combust. Inst., 2020, https://doi.org/10.1016/j.proci.2020.06.335.
3.      Xingyu Liang, Yajun Wang, Yuesen Wang, Bowen Zhao, Ziding Zhang, Xu Lv,Zhaohui Wu, Xiaoliang Cai, and Kun Wang, Impact of lubricating base oil on diesel soot oxidation reactivity, Combust. Flame, 2020, 217, 77-84.
4.      梁兴雨,刘志伟,王昆,朱仕皓,王晓慧,沈位. 四类碳氢燃料的高温反应动力学简化建模. 西安交通大学学报.EI,录用定稿)网络首发:2020.09.24.
5.      Wang K., Bowman C. T., and Wang Hai,Kinetic analysis of distinct product generation in oxidative pyrolysis of four octane isomers”, Proc. Combust. Inst., 2019 (37) 531–538.
6.      Wang K., Xu R., Parise T., Shao J.K., Movaghar A., Lee D. J., Park J.-W., Gao Y., Lu T.F., Egolfopoulos F. N., Davidson D. F., Hanson R. K., Bowman C. T., Wang H., “A physics-based approach to modeling real-fuel combustion chemistry- IV. HyChem modeling of combustion kinetics of a bio-derived jet fuel and its blends with a conventional Jet A”, Combust. Flame 2018, 198, 477-489.
7.      Wang H., Xu R., Wang K., Bowman C.T., Davidson D.F., Hanson R.K., Brezinsky K., Egolfopoulos F.N., “A Physics-based approach to modeling real-fuel combustion chemistry- I. Evidence from experiments, and thermodynamic, chemical kinetic and statistical considerations”, Combust. Flame 2018, 193, 502519.
8.      Xu R., Wang K., Banerjee S., Shao J., Parise T., Zhu Y., Wang S., Movaghar A., Lee D.J., Zhao R., Han X., Gao Y., Lu T., Brezinsky K., Egolfopoulos F.N., Davidson D.F., Hanson R.K., Bowman C.T., Wang H., “A Physics-based approach to modeling real-fuel combustion chemistry- II. Reaction kinetic models of jet and rocket fuels”, Combust. Flame 2018, 193, 520–537.
9.      Y. Tao, R. Xu, K. Wang, J.K. Shao, S.E. Johnson, A. Movaghar, X. Han, J.-W. Park, T.F. Lu, K. Brezinsky, F.N. Egolfopoulos, D.F. Davidson, R.K. Hanson, C.T. Bowman, H. Wang, A Physics-based approach to modeling real-fuel combustion chemistry –III. Reaction kinetic model of JP10, Combust. Flame 2018, 193, 466476.
10.  Chen D., Wang K., and Wang Hai, “Violation of collision limit in recently published reaction models”, Combust. Flame, 2017, 186, 208–210.
11.  Wang K., Villano S. M., and Dean A. M., “Experimental and Kinetic Modeling Study of Butene Isomer Pyrolysis: Part II. IsoButene”, Combust. Flame, 2017, 176, 23–37.
12.  Wang K., Villano S. M., and Dean A. M., “Experimental and Kinetic Modeling Study of Butene Isomer Pyrolysis: Part I. 1- and 2-Butene”, Combust. Flame, 2016, 173, 347–369.
13.  Saldana M., Bogin G., Wang K., and Dean A. M., “Comparative Kinetic Analysis of Ethane Pyrolysis at Elevated Pressures and High Conversions”, Energy Fuels, 2016, 30 (11), 9703–9711.
14.  Wang K., Villano S. M., and Dean A. M., “Ab Initio Study of the Influence of Resonance Stabilization on the Ring Closure Reactions of Hydrocarbon Radicals”. Phys. Chem. Chem. Phys. 2016, 18, 8437–8452.
15.  Wang K., Villano S. M., and Dean A. M., “Fundamentally-Based Kinetic Model for Propene Pyrolysis”. Combust. Flame, 2015, 162(12):4456–4470.
16.  Wang K., Villano S. M., and Dean A. M., “Reactivity-Structure Based Rate Estimation Rules for Alkyl Radical H-atom Shift and Alkenyl Radical Cyclization Reactions”. J. Phys. Chem. A 2015, 119(28): 7205–7221.
17.  Wang K., Villano S. M., and Dean A. M., “Reactions of Resonantly-Stabilized Free Radicals that Impact Molecular Weight Growth Kinetics”. Phys. Chem. Chem. Phys. 2015, 17, 62556273.
18.  Wang K., Villano S. M., and Dean A. M., “The Impact of Resonance Stabilization on the Intramolecular H-atom Shift Reactions of Hydrocarbon Radicals”. ChemPhysChem, 2015, 16(12): 2635–2645.
Book Chapter
Computer-Aided Chemical Engineering, Vol. 45, "Mathematical Modelling of Gas-Phase Complex Reaction Systems: Pyrolysis and Combustion", Edited by Tiziano Faravelli, Flavio Manenti, and Eliseo Ranzi. Chapter 4, "Rate rules and reaction classes", Kun Wang and Anthony M. Dean, 2019, pp. 203-257.

课题组成员:

沈位,白世杰,MOHAMEDAHMED ALI MOHAMEDAHMED HAMED,江杭朋
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